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-rwxr-xr-xattic/muse/utils/muse-song-convert.py740
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diff --git a/attic/muse/utils/muse-song-convert.py b/attic/muse/utils/muse-song-convert.py
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+++ b/attic/muse/utils/muse-song-convert.py
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+#!/usr/bin/python
+import sys
+import os
+import string
+
+version = "0.6"
+##########################################
+##########################################
+#
+# MusE song format converter
+#
+#########################################
+#########################################
+
+# blocks to remove:
+blocks = [
+["<segmentsize>","</segmentsize>"],
+["<rtcTicks>","</rtcTicks>"],
+["<useAlsa>", "</useAlsa>"],
+["<useJack>", "</useJack>"],
+["<extendedMidi>", "</extendedMidi>"],
+["<midiExportDivision>", "</midiExportDivision>"],
+["<font", "</font"],
+["<theme>", "</theme>"],
+["_font", "/>"],
+["<show_page_no>","</show_page_no>"],
+["<show_measure_no>","</show_measure_no>"],
+["<paper_width>","</paper_width>"],
+["<paper_height>","</paper_height>"],
+["<top_margin>","</top_margin>"],
+["<bottom_margin>","</bottom_margin>"],
+["<left_margin>","</left_margin>"],
+["<right_margin>","</right_margin>"],
+["<bars_page>","</bars_page>"],
+["<print_scale>","</print_scale>"],
+["<show_track_name>","</show_track_name>"],
+["<activityColor","</activityColor>"],
+["<activityMode>","</activityMode>"],
+["<score>","</score>"],
+["<image>","</image>"],
+["<part_type>","</part_type>"],
+["<show_events>","</show_events>"],
+["<grid>","</grid>"],
+["<printer type","</printer>"],
+["<bigtime visible","</bigtime>"],
+["<transport visible","</transport>"],
+["<audioInput>","</audioInput>"],
+["<audioOutput","</audioOutput>"],
+["<AudioInRoute>","</AudioInRoute>"],
+["<track type=", "<track type="],
+["</track", "</track"],
+["<staff","</staff"],
+["<noteQuant>","</noteQuant"],
+["<restQuant>","</restQuant"],
+["<midiThru>","</midiThru"],
+["<splitpoint>","</splitpoint"],
+]
+
+# To store array of audio groups
+# input, group1,2,3,4 + master
+AudioGroupTags = [
+"<channels>","<connect>","<volume>","<pan>",
+"<mute>","<solo>","<prefader>","<off>"]
+adata=[]
+synths=[]
+clips=[]
+midiports=[]
+
+class MusEConvert:
+ def __init__(self):
+ self.insidePart = False
+ self.insideWaveTrack=False
+ self.currWaveTrackName=""
+
+ # parse string and look for blocks to remove
+ def findAndSkipBlock(self, theFile, currLine):
+ for line in blocks:
+ if string.find(currLine , line[0]) > -1:
+ #print "Skipping %s"%line[0]
+ self.loopUntil(theFile, currLine, line[1])
+ return True
+ return False
+
+ # when a block has been found, loop until the end-tag.
+ def loopUntil(self, theFile, currLine, tagToFind):
+ loopEnd = False
+ if string.find(currLine , tagToFind) > -1:
+ loopEnd = True
+ while loopEnd == False:
+ line = inFile.readline()
+ if string.find(line, tagToFind) > -1:
+ loopEnd = True
+
+ def fixComma(self, theFile, currLine):
+ newStr = string.replace(currLine , ",",".")
+ return newStr
+
+
+ def getSynth(self, theFile, currLine):
+ line = theFile.readline() # <class>
+ clas = self.getSimpleValue(line)
+ line = theFile.readline() # <name>
+ name = self.getSimpleValue(line)
+ line = theFile.readline() # <port>
+ port = self.getSimpleValue(line)
+ line = theFile.readline() # <guiVisible>
+ guiVisible = self.getSimpleValue(line)
+
+ stateInfo = []
+ line = theFile.readline()
+ notFoundStateEnd= True
+ if string.find(line , "<midistate") > -1:
+ notFoundStateEnd = True
+ line = theFile.readline()
+
+ while notFoundStateEnd:
+ if string.find(line , "<event") > -1:
+ event = []
+ event.append(line)
+ notFoundEventEnd = True
+ if string.find(line , "/>") > -1:
+ notFoundEventEnd = False
+ line = theFile.readline()
+ while notFoundEventEnd:
+ if string.find(line , "</event") > -1:
+ notFoundEventEnd = False
+ event.append(line)
+ line = theFile.readline()
+ stateInfo.append(event)
+ if string.find(line , "</midistate") > -1:
+ notFoundStateEnd = False
+
+ # got all events
+ theFile.readline() # <audionode
+ # 0 1 2 3 4
+ return ([clas,name,port,guiVisible,stateInfo])
+
+ def getAudio(self,theFile,currLine, atype, name, idx):
+ line = theFile.readline() # <channels>
+ ch = self.getSimpleValue(line)
+
+ conn = ""
+ if atype == "audiomaster": # don't read any lines
+ pass
+ else:
+ line = theFile.readline() # <connect>
+ conn = self.getSimpleValue(line)
+
+ line = theFile.readline() # <volume>
+ vol = self.getSimpleValue(line)
+ line = theFile.readline() # <pan>
+ pan = self.getSimpleValue(line)
+
+ line = theFile.readline() # <mute>
+ mute = self.getSimpleValue(line)
+ line = theFile.readline() # <solo>
+ solo = self.getSimpleValue(line)
+
+ line = theFile.readline() # <prefader>
+ pre = self.getSimpleValue(line)
+
+ line = theFile.readline() # <off>
+ off = self.getSimpleValue(line)
+
+ line = theFile.readline() # <plugin 1
+ p1=[]
+ p2=[]
+ p3=[]
+ p4=[]
+ if string.find(line , "<plugin") > -1:
+ notFoundPlugEnd = True
+ while notFoundPlugEnd:
+ p1.append(line)
+ line = theFile.readline() # <plugin 1
+ if string.find(line , "</plugin") > -1:
+ p1.append(line)
+ notFoundPlugEnd = False
+
+ line = theFile.readline() # <plugin 2
+ if string.find(line , "<plugin") > -1:
+ notFoundPlugEnd = True
+ while notFoundPlugEnd:
+ p2.append(line)
+ line = theFile.readline() # <plugin 2
+ if string.find(line , "</plugin") > -1:
+ p2.append(line)
+ notFoundPlugEnd = False
+
+ line = theFile.readline() # <plugin 3
+ if string.find(line , "<plugin") > -1:
+ notFoundPlugEnd = True
+ while notFoundPlugEnd:
+ p3.append(line)
+ line = theFile.readline() # <plugin 3
+ if string.find(line , "</plugin") > -1:
+ p3.append(line)
+ notFoundPlugEnd = False
+
+ line = theFile.readline() # <plugin 4
+ if string.find(line , "<plugin") > -1:
+ notFoundPlugEnd = True
+ while notFoundPlugEnd:
+ p4.append(line)
+ line = theFile.readline() # <plugin 4
+ if string.find(line , "</plugin") > -1:
+ p3.append(line)
+ notFoundPlugEnd = False
+
+ print "atype=", atype
+ print "p1=", p1
+ print "p2=", p2
+ print "p3=", p3
+ print "p4=", p4
+
+ return([atype,name,idx,ch,conn,vol,pan,mute,solo,pre,off, p1,p2,p3,p4]) # add them together
+
+ def checkAGroup(self, theFile, currLine):
+ if string.find(currLine , "<audiogroup") > -1:
+ print "AUDIOGROUP"
+ theFile.readline() # <audiogroup>
+ idx = self.getProperty(currLine, "idx")
+ print "idx=",idx
+ data = self.getAudio(theFile,currLine,"audiogroup", "Group %s"%(chr(int(idx)+65)),idx)
+ adata.append(data)
+ theFile.readline() # </audiogroup>
+ return True
+ else:
+ return False
+
+ def checkSynth(self, theFile, currLine):
+ if string.find(currLine , "<synth") > -1:
+ print "SYNTH"
+ synt = self.getSynth(theFile,currLine)
+ data = self.getAudio(theFile,currLine,"synth", synt[1], 0)
+ print "got synth, name=%s route=%s",synt[1], data[5]
+
+ theFile.readline() # </synth>
+ synths.append(synt)
+ adata.append(data)
+
+ return True
+ else:
+ return False
+
+ def checkAMaster(self, theFile, currLine):
+ if string.find(currLine , "<audiomaster") > -1:
+ print "AUDIOMASTER"
+ theFile.readline() # <audiomaster>
+ data = self.getAudio(theFile,currLine,"audiomaster", "Master",-1)
+ adata.append(data)
+ theFile.readline() # </audiomaster>
+ return True
+ else:
+ return False
+
+ def checkAInput(self, theFile, currLine):
+ if string.find(currLine , "<audioinput") > -1:
+ print "AUDIOINPUT"
+ theFile.readline() # <audioinput>
+ idx = self.getProperty(currLine, "idx")
+ data = self.getAudio(theFile,currLine,"audioinput", "In 1",idx)
+ adata.append(data)
+ theFile.readline() # </audioinput>
+ return True
+ else:
+ return False
+
+ # returns the property
+ def getProperty(self, currLine, tag):
+ prePtr = string.find(currLine , tag)
+ if prePtr == -1:
+ return -1
+ firstPtr = string.find(currLine[prePtr:] , "\"")
+ lastPtr = string.find(currLine[firstPtr+prePtr+1:] , "\"")
+ return currLine[firstPtr+prePtr+1:firstPtr+prePtr+lastPtr+1]
+
+ def checkMGroup(self, theFile, currLine):
+ if string.find(currLine , "<midiport") > -1:
+ print "MIDIPORT"
+ idx = self.getProperty(currLine, "idx")
+ line = theFile.readline() # <instrument>
+ inst = self.getSimpleValue(line)
+ line = theFile.readline() # <name>
+ name = self.getSimpleValue(line)
+ line = theFile.readline() # <record>
+ rec = self.getSimpleValue(line)
+ midiports.append([idx, inst, name,rec]) # add them together
+ line = theFile.readline() # </midiport>
+ return True
+ else:
+ return False
+
+
+ # retrieve the value of a simple XML tag
+ # format is important, must be:
+ # <tag>value</tag>
+ def getSimpleValue(self, line):
+ firstPtr = string.find(line, ">") # find end of first tag
+ lastPtr = string.find(line, "</")
+ outStr = line[firstPtr+1:lastPtr]
+ return outStr
+
+ def checkClip(self, theFile, currLine):
+ if string.find(currLine , "<clip>") > -1:
+ if self.insidePart == False:
+ print "CLIP"
+ line = theFile.readline() # <file>
+ fil = self.getSimpleValue(line)
+ line = theFile.readline() # <name>
+ nam = self.getSimpleValue(line)
+ line = theFile.readline() # <name>
+ tick = self.getSimpleValue(line)
+ clips.append([nam, fil, tick]) # add them together
+ line = theFile.readline() # <len>
+ line = theFile.readline() # </clip>
+ else:
+ print "insertClip"
+ clipname = self.getSimpleValue(currLine)
+ for clip in clips:
+ if clip[0] == clipname:
+ outFile.write(" <frame>%s</frame>\n"%(clip[2]))
+ outFile.write(" <file>%s</file>\n"%(clip[1]))
+ return True
+ else:
+ return False
+
+
+
+ def checkPart(self, theFile, currLine):
+ if string.find(currLine , "<part>") > -1:
+ print "PART"
+ self.insidePart = True
+ elif string.find(currLine , "</part>") > -1:
+ print "/PART"
+ self.insidePart = False
+
+ def checkWaveTrack(self, theFile, currLine):
+ if string.find(currLine , "</wavetrack>") > -1:
+ print "/WAVETRACK"
+ self.insideWaveTrack = False
+ return False
+ elif string.find(currLine , "<wavetrack>") > -1:
+ print "WAVETRACK"
+ self.insideWaveTrack = True
+ return False
+
+ if self.insideWaveTrack: # create dummy adata for the routing
+ if string.find(currLine , "<connect>") > -1:
+ con = self.getSimpleValue(currLine)
+
+ #adata.append([atype,name,idx,ch,conn,vol,pan,mute,solo,pre,off, p1,p2,p3,p4])
+ print ["wavetrack", self.currWaveTrackName,0,0,con,0,0,0,0,0,0,0,0,0,0]
+ adata.append(["wavetrack", self.currWaveTrackName,0,0,con,0,0,0,0,0,0,0,0,0,0])
+
+ return True
+
+ elif string.find(currLine , "<audionode") > -1:
+ print "AUDIONODE - in wave track"
+ return True
+ elif string.find(currLine , "</audionode") > -1:
+ print "AUDIONODE - in wave track"
+ return True
+ elif string.find(currLine , "<volume>") > -1:
+ vol = self.getSimpleValue(currLine)
+ outFile.write(" <controller id=\"0\" cur=\"%s\">\n"%vol)
+ outFile.write(" </controller>\n")
+ return True
+ elif string.find(currLine , "<pan>") > -1:
+ pan = self.getSimpleValue(currLine)
+ outFile.write(" <controller id=\"1\" cur=\"%s\">\n"%pan)
+ outFile.write(" </controller>\n")
+ return True
+ return False
+
+ def getWaveTrackName(self, theFile, currLine):
+ if self.insideWaveTrack and not self.insidePart:
+ if string.find(currLine , "<name>") > -1:
+ print "WAVETRACK - NAME"
+ self.currWaveTrackName = self.getSimpleValue(currLine)
+ print "self.currWaveTrackName =", self.currWaveTrackName
+ elif self.insideWaveTrack and self.insidePart:
+ pass
+ else:
+ self.currWaveTrackName = ""
+
+ def checkTriggerForAdd(self, theFile, currLine):
+ if string.find(currLine , "<tempolist") > -1:
+ # we're in business, add ALL stored info:
+ # 1. AudioOutput
+ # 2. AudioInput
+ # 3. AudioGroup
+ # 4. SynthI
+ # 5. Routes
+ #
+ # 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14
+ # adata.append([atype,name,idx,ch,conn,vol,pan,mute,solo,pre,off,p1,p2,p3,p4])
+
+ # 1.
+ for line in adata:
+ if line[0] == "audiomaster":
+ #print "amaster"
+ #print line
+ outFile.write(" <AudioOutput>\n")
+ outFile.write(" <name>%s</name>\n"%line[1])
+ outFile.write(" <record>0</record>\n")
+ outFile.write(" <mute>%s</mute>\n"%line[7])
+ outFile.write(" <solo>%s</solo>\n"%line[8])
+ outFile.write(" <off>%s</off>\n"%line[10])
+ outFile.write(" <channels>%s</channels>\n"%line[3])
+ outFile.write(" <height>20</height>\n")
+ outFile.write(" <locked>0</locked>\n")
+ outFile.write(" <prefader>%s</prefader>\n"%line[9])
+ outFile.write(" <automation>1</automation>\n")
+ outFile.write(" <controller id=\"0\" cur=\"%s\">\n"%line[5])
+ outFile.write(" </controller>\n")
+ outFile.write(" <controller id=\"1\" cur=\"%s\">\n"%line[6])
+ outFile.write(" </controller>\n")
+ if line[11] !=[]:
+ print "%s line[11] %s"%(line[1],line[11])
+ for pl in line[11]:
+ outFile.write(pl)
+ if line[12] !=[]:
+ print "%s line[12] %s"%(line[1],line[12])
+ for pl in line[12]:
+ outFile.write(pl)
+ if line[13] !=[]:
+ print "%s line[13] %s"%(line[1],line[13])
+ for pl in line[13]:
+ outFile.write(pl)
+ if line[14] !=[]:
+ print "%s line[14] %s"%(line[1],line[14])
+ for pl in line[14]:
+ outFile.write(pl)
+ outFile.write(" </AudioOutput>\n")
+
+ # 2.
+ for line in adata:
+ if line[0] == "audioinput":
+ outFile.write(" <AudioInput>\n")
+ outFile.write(" <name>%s</name>\n"%line[1])
+ outFile.write(" <record>0</record>\n")
+ outFile.write(" <mute>%s</mute>\n"%line[7])
+ outFile.write(" <solo>%s</solo>\n"%line[8])
+ outFile.write(" <off>%s</off>\n"%line[10])
+ outFile.write(" <channels>%s</channels>\n"%line[3])
+ outFile.write(" <height>20</height>\n")
+ outFile.write(" <locked>0</locked>\n")
+ outFile.write(" <prefader>%s</prefader>\n"%line[9])
+ outFile.write(" <automation>1</automation>\n")
+ outFile.write(" <controller id=\"0\" cur=\"%s\">\n"%line[5])
+ outFile.write(" </controller>\n")
+ outFile.write(" <controller id=\"1\" cur=\"%s\">\n"%line[6])
+ outFile.write(" </controller>\n")
+ if line[11] !=[]:
+ print "%s line[11] %s"%(line[1],line[11])
+ for pl in line[11]:
+ outFile.write(pl)
+ if line[12] !=[]:
+ print "%s line[12] %s"%(line[1],line[12])
+ for pl in line[12]:
+ outFile.write(pl)
+ if line[13] !=[]:
+ print "%s line[13] %s"%(line[1],line[13])
+ for pl in line[13]:
+ outFile.write(pl)
+ if line[14] !=[]:
+ print "%s line[14] %s"%(line[1],line[14])
+ for pl in line[14]:
+ outFile.write(pl)
+ outFile.write(" </AudioInput>\n")
+
+ # 3.
+ for line in adata:
+ if line[0] == "audiogroup":
+ outFile.write(" <AudioGroup>\n")
+ outFile.write(" <name>%s</name>\n"%line[1])
+ outFile.write(" <record>0</record>\n")
+ outFile.write(" <mute>%s</mute>\n"%line[7])
+ outFile.write(" <solo>%s</solo>\n"%line[8])
+ outFile.write(" <off>%s</off>\n"%line[10])
+ outFile.write(" <channels>%s</channels>\n"%line[3])
+ outFile.write(" <height>20</height>\n")
+ outFile.write(" <locked>0</locked>\n")
+ outFile.write(" <prefader>%s</prefader>\n"%line[9])
+ outFile.write(" <automation>1</automation>\n")
+ outFile.write(" <controller id=\"0\" cur=\"%s\">\n"%line[5])
+ outFile.write(" </controller>\n")
+ outFile.write(" <controller id=\"1\" cur=\"%s\">\n"%line[6])
+ outFile.write(" </controller>\n")
+ if line[11] !=[]:
+ print "%s line[11] %s"%(line[1],line[11])
+ for pl in line[11]:
+ outFile.write(pl)
+ if line[12] !=[]:
+ print "%s line[12] %s"%(line[1],line[12])
+ for pl in line[12]:
+ outFile.write(pl)
+ if line[13] !=[]:
+ print "%s line[13] %s"%(line[1],line[13])
+ for pl in line[13]:
+ outFile.write(pl)
+ if line[14] !=[]:
+ print "%s line[14] %s"%(line[1],line[14])
+ for pl in line[14]:
+ outFile.write(pl)
+ outFile.write(" </AudioGroup>\n")
+
+ # 4.
+ for line in adata:
+ if line[0] == "synth":
+ outFile.write(" <SynthI>\n")
+ outFile.write(" <name>%s</name>\n"%line[1])
+ outFile.write(" <record>0</record>\n")
+ outFile.write(" <mute>%s</mute>\n"%line[7])
+ outFile.write(" <solo>%s</solo>\n"%line[8])
+ outFile.write(" <off>%s</off>\n"%line[10])
+ outFile.write(" <channels>%s</channels>\n"%line[3])
+ outFile.write(" <height>20</height>\n")
+ outFile.write(" <locked>0</locked>\n")
+ outFile.write(" <prefader>%s</prefader>\n"%line[9])
+ outFile.write(" <automation>1</automation>\n")
+ outFile.write(" <controller id=\"0\" cur=\"%s\">\n"%line[5])
+ outFile.write(" </controller>\n")
+ outFile.write(" <controller id=\"1\" cur=\"%s\">\n"%line[6])
+ outFile.write(" </controller>\n")
+
+# event data
+ for synt in synths:
+ if synt[1] == line[1]:
+ # we found this synth, proceed
+ outFile.write(" <class>%s</class>\n"%synt[0])
+ outFile.write(" <port>%s</port>\n"%synt[2])
+ outFile.write(" <guiVisible>%s</guiVisible>\n"%synt[3])
+ outFile.write(" <midistate>\n")
+
+ if synt[0] == "fluidsynth":
+ # Woaaahh, special treatment, do I have something for you!!!!
+ self.processFluid(synt)
+ else:
+ # Other synth
+ for state in synt[4]:
+ for evl in state:
+ outFile.write(evl)
+
+ outFile.write(" </midistate>\n")
+
+
+
+ #return ([clas,name,port,guiVisible,stateInfo])
+
+ outFile.write(" </SynthI>\n")
+
+ # 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14
+ # adata.append([atype,name,idx,ch,conn,vol,pan,mute,solo,pre,off,p1,p2,p3,p4])
+
+ # 5. - create all routes
+ for line in adata:
+ for line2 in adata:
+ if line[4] == line2[1]:
+ print ">route %s line[4]=%s %s line2[1]=%s"%(line[1],line[4],line2[1],line2[1])
+ outFile.write(" <Route>\n")
+ outFile.write(" <srcNode>%s</srcNode>\n"%line[1])
+ outFile.write(" <dstNode>%s</dstNode>\n"%line2[1])
+ outFile.write(" </Route>\n")
+ else:
+ print "-route %s line[4]=%s %s line2[1]=%s"%(line[1],line[4],line2[1],line2[1])
+
+ outFile.write(" <Route>\n")
+ outFile.write(" <srcNode>1:Master</srcNode>\n")
+ outFile.write(" <dstNode>alsa_pcm:playback_1</dstNode>\n")
+ outFile.write(" </Route>\n")
+ outFile.write(" <Route>\n")
+ outFile.write(" <srcNode>2:Master</srcNode>\n")
+ outFile.write(" <dstNode>alsa_pcm:playback_2</dstNode>\n")
+ outFile.write(" </Route>\n")
+
+ def processFluid(self, fluid):
+ # here we go
+ print "Fluidsynth!!"
+ #for state in fluid[4]:
+ # for evl in state:
+ # outFile.write(evl)
+
+ # ok, let's convert the first event
+
+ outdata=" "
+ nbrOfFonts=0
+ counter2f = 0
+ externalConnects=[0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]
+ externalConnects2f=[0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0]
+ for event in fluid[4]:
+ hexstr = self.convertEventToHexStr(event)
+ print hexstr
+ counter1 = 0
+ counter2 = 0
+ if hexstr[0] == "28":
+ externalConnects[nbrOfFonts] = hexstr[1]
+ nbrOfFonts = nbrOfFonts+1
+ for h in hexstr[2:-1]:
+ outdata = outdata + "%s "%h
+ counter1 == counter1 + 1
+ counter2 == counter2 + 1
+ if counter1 > 9:
+ outdata = outdata + "\n "
+ counter1= 0
+
+ elif hexstr[0] == "2f":
+ # ext_id preset channel
+ externalConnects2f[counter2f] = "%s %s %s "%(hexstr[1],hexstr[3], "00") #hexstr[2])
+ counter2f=counter2f+1
+ # translate
+ # initStr = "f2 00 03 01 2f 00" # fluid v3 , one soundfont, lastdir= "/"
+
+
+
+ outFile.write(" <event type=\"2\" datalen=\"2000\">\n") #%(len(hex)-3))
+ outFile.write(" f2 00 03 0%X 2f 00\n"%nbrOfFonts)
+ outFile.write(outdata)
+ outFile.write("\n ff ")
+ for i in range(nbrOfFonts):
+ outFile.write("%s "%(externalConnects[i]))
+ outFile.write("\n ")
+ for ext in externalConnects2f:
+ outFile.write(ext)
+ outFile.write("\n 00 00 00 00 00 00 00 00\n")
+ outFile.write(" 00 00 00 00 ff ff ff ff 00 00 00 00 00 00\n")
+
+ #outFile.write(" ff 00 00 81 00 7f 81 00 7f\n")
+# outFile.write(" 81 00 7f 81 00 7f 81 00 7f 81 00 7f 81 00 7f 81\n")
+# outFile.write(" 00 7f 81 00 7f 81 00 7f 81 00 7f 81 00 7f 81 00\n")
+# outFile.write(" 7f 81 00 7f 81 00 7f 81 00 00 00 00 00 00 00 00\n")
+ outFile.write(" </event>\n")
+
+
+
+ def convertEventToHexStr(self, event):
+ # here we go
+ newLine=[]
+ for line in event[1:-1]:
+ splitLine = string.split(line)
+ nbr = len(splitLine)
+ #print nbr
+ #print splitLine
+
+ count = 0
+ while count < nbr:
+ newLine.append("%s%s"%(splitLine[count][1],splitLine[count+1][1]))
+ count = count + 2
+
+ #print newLine
+
+ return newLine
+
+
+
+
+def help():
+ print "Utility to convert MusE 0.6 songs to 0.7 or newer song format."
+ print "Usage: muse-convert <song file to convert>"
+ print ""
+ print "Please report any problems with this script to rj@spamatica.se"
+ print "Author: Robert Jonsson, 2005, Copylefted under the GPL"
+
+########################
+# --- Main program --- #
+########################
+
+print "MusE Song converter %s"%version
+print ""
+
+if len(sys.argv) < 2:
+ help()
+ sys.exit("")
+
+print "Processing file ", sys.argv[1]
+print ""
+# step 1 - remove malformed data
+inFile = file(sys.argv[1])
+
+outFile = file(sys.argv[1]+".tmp","w")
+fileEnd = False
+
+convert = MusEConvert()
+
+#take care of first few lines:
+outFile.write(inFile.readline()) # <?xml
+line = inFile.readline() # <muse string
+if string.find(line, "<muse version=\"1.0\">") == -1:
+ print "Unable to confirm that this is a song file with the old format, aborting..."
+ sys.exit("")
+outFile.write("<muse version=\"2.0\" comment=\"converted by muse converter v%s\">\n"%version)
+
+
+while fileEnd == False:
+ line = inFile.readline()
+ if line == "":
+ fileEnd = True
+ newLine = convert.fixComma(inFile,line)
+ outFile.write(newLine)
+
+inFile.close()
+outFile.close()
+
+#sys.exit("")
+inFile = file(sys.argv[1]+".tmp","r")
+outFile = file(sys.argv[1]+".converted","w")
+fileEnd = False
+
+while fileEnd == False:
+ line = inFile.readline()
+ if line == "":
+ fileEnd = True
+
+ convert.checkPart(inFile,line) # only state variables
+ convert.getWaveTrackName(inFile,line) # only state variables
+
+ convert.checkTriggerForAdd(inFile,line) # insert routes+stuff?
+
+ if convert.findAndSkipBlock(inFile, line) == True:
+ pass
+ elif convert.checkAGroup(inFile,line):
+ pass
+ elif convert.checkAMaster(inFile,line):
+ pass
+ elif convert.checkSynth(inFile,line):
+ pass
+ elif convert.checkAInput(inFile,line):
+ pass
+ #elif convert.checkMGroup(inFile,line):
+ # pass
+ elif convert.checkClip(inFile,line):
+ pass
+ elif convert.checkWaveTrack(inFile,line): # only state variables
+ pass
+ else:
+ outFile.write(line)
+
+print ""
+print "Converted!"
+print ""